wrxsti
Structural
- Sep 18, 2020
- 196
I am trying to model a form deck slab on typical mezzanine layout in etabs
see model with loads ---> (sorry was trying to post image was not working)
slab is thin shell 4" - f11 f22 f12 m11 m22 m12 stiffness modifiers 0.25 4000 psi
BM diagram as thin shell shown here -->
slab is membrane
BM diagram as membrane shown here -->
if you define a deck section it only allows membrane modelling which negates any out of plane bending
not sure if this is because of practice?
I am finding with the thin shell model the concentrated loads distribute more to adjacent secondary beams allowing smaller secondary beam sizes
this distribution changes with thickness of slab
Can anyone experienced share any light on the matter?
which model should be used ?
Also i was trying to verify the behaviour of shell elements
COMPARATIVE MODEL #1
slab thin shell connected to frame by links ---> link only U1 (vertical) fixed in model
BM 3-3 ----> BM 2-2 ----> torsion -----> axial ---->
COMPARATIVE MODEL #2
Slab thin shell drawn on top of frame ----> no release on shell objects
BM 3-3 -----> BM 2-2 -----> torsion ----> axial ----->
Initially after reading about how the program uses shell elements
an alternative to creating simply supported slabs was to use links
which i tried to do in COMPARATIVE MODEL #1
What i really wanted to do is model the slab sitting on top of the beams
and not connected which wouldnt produce hogging moments in the beams ( seen as RED on BM 3-3)
links only see to work in the direction.
Is there anyway to model the slab as just resting on the frame in etabs?
i know usually in practice the form decks are secured to beams but was just wondering if there was any way
to do above mentioned.
see model with loads ---> (sorry was trying to post image was not working)
slab is thin shell 4" - f11 f22 f12 m11 m22 m12 stiffness modifiers 0.25 4000 psi
BM diagram as thin shell shown here -->
slab is membrane
BM diagram as membrane shown here -->
if you define a deck section it only allows membrane modelling which negates any out of plane bending
not sure if this is because of practice?
I am finding with the thin shell model the concentrated loads distribute more to adjacent secondary beams allowing smaller secondary beam sizes
this distribution changes with thickness of slab
Can anyone experienced share any light on the matter?
which model should be used ?
Also i was trying to verify the behaviour of shell elements
COMPARATIVE MODEL #1
slab thin shell connected to frame by links ---> link only U1 (vertical) fixed in model
BM 3-3 ----> BM 2-2 ----> torsion -----> axial ---->
COMPARATIVE MODEL #2
Slab thin shell drawn on top of frame ----> no release on shell objects
BM 3-3 -----> BM 2-2 -----> torsion ----> axial ----->
Initially after reading about how the program uses shell elements
an alternative to creating simply supported slabs was to use links
which i tried to do in COMPARATIVE MODEL #1
What i really wanted to do is model the slab sitting on top of the beams
and not connected which wouldnt produce hogging moments in the beams ( seen as RED on BM 3-3)
links only see to work in the direction.
Is there anyway to model the slab as just resting on the frame in etabs?
i know usually in practice the form decks are secured to beams but was just wondering if there was any way
to do above mentioned.
